Tyco Safety Sensormatic 4000-PI26 RM2L-4000-P126, RM2-4000-P126 User Manual RM2 4000 PI26 RM2L 4000 PI26 Reader Installation Guide

Tyco Safety Products/Sensormatic RM2L-4000-P126, RM2-4000-P126 RM2 4000 PI26 RM2L 4000 PI26 Reader Installation Guide

User Manual - DRAFT4_RM2L_4000_P126_Reader_8200- 1179-01_A0.pdf

1RM2-4000-PI26 ReaderRM2L-4000-PI26 ReaderInstallation GuideVersion A0Document Part Number 8200- 1179-01September 2015OVERVIEW This guide provides installation and connection information for RM2-4000-PI26 and RM2L-4000-PI26 Readers. NOTE The RM2-4000-PI26 reader model is UL294 approved and not UL1076 approved. The RM2L-4000-PI26 reader model is both UL294 and UL1076 approved.Reader ModelsThe RM readers provide an enclosed RM-4 board with multiple read heads. The readers include two separate read heads in their enclosure – a multi-technology read head positioned behind the right hand side of the reader, and a separate Indala prox read head located behind the keypad portion of the reader. The multi-technology read head will read both low frequency (125KHz) HID prox cards and high frequency (13.56 MHz) smart cards.FIGURE 1. Reader ModelsRM2-4000-PI26 RM2L-4000-PI26 DRAFT
Overview2SupportedTechnologies and CardFormatsThe RM Multi-Technology reader can read three major card technologies – HID prox, Indala prox, and 13.56 MHz smart card. Specific card formats supported include ISO 14443 A/B serial number, ISO 15693 serial number, iCLASS® serial number, MIFARE encrypted sector, DESFire serial number, FIPS 201 PIV-II, and most 125 KHz formats (HID, Indala 26-bit and CASI ProxLite).NOTES UL has not evaluated the ability to “flash” new card protocols or formats directly to the reader. The RM Multi-Technology reader can be used to transition from a proximity system to a more advanced smart card system gradually over time, or to maintain the existing proximity card system while moving selected personnel to smart cards.UL has not evaluated Smart Card technology with this unit. UL has evaluated the Wiegand Proximity (26-bit only) card format for this unit.Proximity(125 KHz) FormatsSupportedNOTE Not all features have been evaluated by UL.TABLE 1. Part NumbersReader Model Part NumberWith keypad; built-in RM-4 DS interface board RM2-4000-PI26With keypad and LCD; built-in RM-4 DS interface board RM2L-4000-PI26TABLE 2. Proximity (125 KHz) Formats SupportedProximity (125 KHz) Formats SupportedAs Shipped: Default Mode (On)HID® 26 Bit YesHID® Corporate 1000 YesHID® 36 Bit Wiegand YesHID® 37 Bit Wiegand YesOther HID® Pass-through Formats YesIndala 26 Bit YesDeister Prox SmartFrame® Yes(GE) Casi Rusco ProxLite Yes Kantech ioProx No DRAFT
Features3Smart Card(13.56 MHz) FormatsSupportedNOTE Not all features have been evaluated by UL. FEATURES Universal compatibility with most 125 KHz Prox (including all HID® Prox formats and Indala 26-bit), all ISO 15693, and ISO 14443A credentials (badges, disk tags and key fobs). Reads both 125 KHz and 13.56 MHz credentials in the same reader.Electrical protection (reverse polarity diode protection on power lines).Data lines: high-speed transient voltage suppressor diodes.IP65-rated sealed electronics for deployment in both interior and exterior environments.Beep-on-card defaults to ON.PIV support – The reader supports a FASC-N read (low assurance read, 200-bit output) from all major PIV, TWIC and CAC cards, plus a 128-bit output from PIV-I and CIV cards.MIFARE 7-byte CSN Support - The reader firmware will be able to distinguish between a legacy MIFARE Classic card and a “next-generation” MIFARE classic card. The next generation MIFARE cards have a unique 7-byte serial number, not 4-byte. When presented to a reader, the next-gen card causes the reader to output a 56-bit CSN. Older cards still output a 32-bit CSN. NOTE Not all features have been evaluated by UL. TABLE 3. Smart Card (13.56 MHz) Formats Supported Smart Card (13.56 MHz) Formats Supported Enabled by Default? MiFARE® Sector NoMiFARE® Serial number, 32 Bit YesMiFARE® Serial number, 56 Bit YesMiFARE® Plus Serial number, 56 Bit YesMiFARE® DesFire Serial number, 56 Bit NoMiFARE® DesFire® EV1 Serial number, 56 Bit NoiCLASS® ISO 15693 Serial number, 64 Bit Yes* PIV, TWIC, CAC, FASC-N Read Yes* (200-bit output)* PIV-I, 128 Bit, GUID Yes* (if 200-bit output is enabled) * PIV-C, 128 Bit, GUID Yes* (if 200-bit output is enabled) * Refers to cards issued under the U.S. Government Smart Card Initiative, HSPD-12. DRAFT
Features4Controller CommunicationsWiegand Locally Flashable via RS485 Open Standards ComplianceISO 14443A ISO 14443B ISO 15693 Configure Using Program CardPass-through - Default setting that allows the reader to send all data on the card.Fixed length - Reader can be configured to output a fixed length by padding or truncating data on the card.(26-bit, 32-bit, 35-bit, 37-bit, 64-bit)CASI ProxLite 44-bit pass-throughMIFARE sectors Select a sector (0-15)Customize encryption keysSpecify data format (number of bits output)Enable PIN-on Smart Card functionalityFIPS 201 PIV-II Customize FASC-N Weigand BCD output75-bit128-bit 200-bit (default)Customize the HMAC by changing the site keyOutput HMACOutput expiration dateDRAFT
Specifications5SPECIFICATIONSPower RequirementsNOTES Reader power to be supplied from power limited output of a Listed control unit or from a separately-supplied UL Listed, access control (UL294) or burglar alarm (UL603), power-limited power source with 4-hour standby capability.Connection to the ARM-1 has not been evaluated by UL.Specification RequirementData Cable Recommended data cable is Belden #9841or equivalent. The maximum length is 4000 feet (1212 meters) between the controller and the reader. Power Wiring Recommended power wiring is Belden #8461/8442 twisted pair. Maximum length depends on the wire gauge. Readers can be powered from a local power supply.Temperature Indoor: 32° F to 120° F (0° C to 49° C)Outdoor: -31° F to 151° F (-35° C to 66° C)Reader Display: 14° F to 151° F (-10° C to 66° C)Display with heater kit: -4° F to 151° F (-20° C to 66° C) Distance from P5 to the ARM-1 Maximum: 25 feetDistance from P5 to the inputs Maximum: 2000 feet1KW resistors for the NO and NC supervised inputsLocate as close as possible to the switch.Shielded, minimum 22 AWG stranded, twisted pair cableMust be used to comply with UL.TABLE 4. Reader Power Supply RequirementsReader Power Requirements: 12 VDCRM2-4000-PI26With Keypad 350 mA Max Voltage Range: 12VRM2L-4000-PI26With Keypad and LCD350 mA Max Voltage Range: 12VRelay contact power limits Up to 30 VAC/DC, 3.3 A maximumDRAFT
Installation6INSTALLATION To Install the Reader:1. Install the reader mount plate.2. Wire the components.3. Connect and ground the cable shields on the reader bus.(Refer to TAB 2010-15 “RM Reader ESD Protection Guidelines.”)4. Set the reader address.5. Install the ARM-1 relay boards (optional).6. Install the heater kit (optional).7. Mount the reader standard housing on the reader mount plate using the Software House security screwdriver (Part number 132-183).Install the RM MountPlateFigure 2 shows the standard housing, mount plate, and gasket. The readers conform to the same housing, mount plate, and gasket dimensions.FIGURE 2. Standard Housing and Mount Plate Figure 3 on page 7 shows the mount plate dimensions.Standard HousingStandard mount plateHousing screwsGasketRequires a security screwdriver DRAFT
Installation7FIGURE 3. Mount Plate DimensionsThis device has been approved for outdoor use when properly installed with the RM Heater Kit Installation (P.N. 130-915) and the supplied gasket material. Position the gasket with the RM mount plate so that the mounting holes are properly aligned. Ensure that the gasket is placed between the mounting surface and mating surface of the RM mount plate. Fasten the RM mount plate to the mounting surface with the gasket material in between. Install the gasket so that no gaps or wrinkles are present.The RM mount plate contains eight mounting holes. However, you do not have to use all eight holes; usually any four of the eight holes are adequate. The mounting holes are 0.156” and provide clearance for 6-32 flat head counter sunk bolts or screws.Wiring access1.29".83"2.47"3.66"2.73"1.54"5.45"4.94"4.11"1.82"3.92"3.64"8 mounting holes.0.156" Thru, 0.280” Countersink DRAFT
Installation8Wiring the ReaderComponentsFigure 4 shows reader connections.FIGURE 4. Reader ConnectionNOTE UL has not evaluated the ARM-1.DRAFT
Setting up the reader9Wiring the Inputs,Outputs, Reader BusFigure 5 shows RM-4 P1 and P5 wiring.FIGURE 5. RM-4 Wiring RequirementsNOTES SW3-7 and SW3-8 refer to the Beeper on the RM-4. P3 BEEP refers to the Beeper on the read head, if it exists. There is no Beeper on the reader read heads. Some third-party readers that are connected to a standalone reader have beepers. SETTING UP THEREADERTo Set Up the Reader:1. Set the Reader Address Switch, SW1 (a 16 position rotary switch, see Figure 5), to a number from one to eight. Each Reader along the bus must have a unique address.2. The SW3-1, SW3-2, SW3-3, and SW3-6 Configuration Switches are factory preset for the readers, as shown in Figure 5 on page 9. 3. Note that you can override SW3-4, SW3-5, SW3-7 and SW3-8 if desired.To properly terminate an RS-485 line, only the last unit on the bus should have SW3-5 in the On (closed) position. DRAFT
Setting up the reader10Grounding andShieldingSingle RM ReaderWhen connecting a single RM reader to the reader bus, use twisted pair, shielded minimum 24 AWG cable. Attach the shield at the controller end.(Refer to TAB 2010-15 “RM Reader ESD Protection Guidelines.”)Attach a local earth ground (18 or 22 gauge) wire to the J5 component on the RM reader.Multiple RM Bus DevicesWhen wiring an RM reader to a bus with multiple devices, such as other RM-4s, I/8s, or R/8s:Attach the shields along the bus together (insulate each connection). Snip off the shield wire at the end of the bus, see Figure 6.Attach the shield to the ground at only one point – at the ground stud inside the controllerAttach a local earth ground (18 or 22 gauge) wire to the J5 component on the RM reader.FIGURE 6. Reader Shield WiringSetting ModuleAddress andEOL TerminationTo set the module address, set SW1 (16 position rotary switch) to a number from one to eight. Every reader on a bus must have a unique address.To set RS-485 EOL (End of Line) termination, set SW3-5 to the On (closed) position if the module is the last unit on the bus. If the module is not the last unit on the bus, SW3-5 should be Off (open).RS-485 connector on a readerKnockoutTwist shield wires together and insulate (do not ground)Ground stud(bus configuration)Shield wireEnclosure/cabinetShield wire Snip off shield wire at end of busDRAFT
Setting up the reader11Figure 7 shows how to connect ARM-1 relay modules to the reader outputs and how to wire NO (Normally Open) and NC (Normally Closed) supervised inputs.FIGURE 7. Reader Input/Output ConnectionsInstalling the ARM-1Relay ModuleTwo ARM-1 relay components can be connected to the reader through the P5 connector (Table 5 ). RM P5-1 is the common (+12 VDC) pin for either ARM-1. RM P5-2 is the output drive (GND) for the first relay. RM P5-3 is the output drive (GND) for the second relay.TABLE 5. ARM-1 WiringModule (131-192) WiringARM-1 Relay ARM P2-1 to RM P5-1ARM P2-2 to RM P5-2ARM-2 Relay ARM P2-1 to RM P5-1ARM P2-2 to RM P5-3DRAFT
Setting up the reader12Installing the Heater(optional)The readers require a heater kit (Model C130-915) when installed outdoors in an environment where temperatures may drop below 40° F (5° C). The Model C130-915 heater kit contains the following parts:Part number C130-915A is supplied without a transformer. A UL Listed Class 2 transformer rated output 12 VAC, 40 VA is required for proper installation.Figure 8 shows how to wire the RM heater kit.FIGURE 8. RM Heater Kit WiringFigure 9 on page 13 shows the location of the heater strips and thermostat on the RM mount plate.TABLE 6. Heater PartsQuantity Description1 Transformer 12 VAC 40VA2 Heater Strips1 Thermostat (turns on at 40 ° F)3 Wire nuts2 6-32 x 1/4” screws to mount thermostat to RM plate.DRAFT
Setting up the reader13FIGURE 9. RM Installation.Applying Heater StripsTo Apply Heater Strips: 1. Clean the attachment surface of the RM mount plate with a solvent such as alcohol (use all required precautions when handling solvents).2. Carefully remove the release film from the adhesive.3. Locate the heater on the clean surface of the RM mount plate exactly as shown in Figure 9.4. Gently roll the heater strip in place to remove air bubbles.5. For maximum adhesion, do not apply pressure to the heater strips for 72 hours. NOTE Air gaps or bubbles under the heater cause localized overheating and possible heater burnout. Also, application of adhesives at temperatures below 50° F is not recommended.Installing the ThermostatTo Install the Thermostat:1. Fasten the thermostat to the RM mount plate with the body of the device facing the junction box and the face sitting flat against the RM mount plate surface.2. With the back (or outside) surface facing up, align the thermostat such that the screw holes of the thermostat allow for the 6-32 x 1/4” screws to secure the device to the RM mount plate. 3. Use two (Quantity 2) 6-32 x 1/4” screws to mount the thermostat to the RM mount Plate. Tighten the screws allowing the thermostat to be sufficiently secured to the RM mount plate. Do not over tighten the screws.DRAFT
Testing Readers14TESTING READERS To Test the Readers:1. Properly configure Readers, Inputs, and Outputs using the C•CURE Administration application and put the reader Online.2. Measure the supply voltage to the reader. The voltage can be measured between pin 1 (+12 VDC supply) and pin 4 (ground) on the P4 connector. The voltage must be +12 VDC (+/-5%).3. Check the reader address setting. The reader must be set to an unused address, between 1 and 8, when connected to the apC or iSTAR. Use rotary switch SW1 to set the reader address.4. Check the reader for communications to the controller by observing LED2 and LED3. (RM2L-4000-PI26 only)5. Check the supervised inputs. Configure the inputs on the controller using the C•CURE Administration application.With no switches or resistors connected to the supervised input 1 and 2 lines, the C•CURE Monitoring application should report inputs as “Open Loop”. When you connect the 1,000-ohm resistor to the input terminals, the C• CURE Monitoring application should report that the input as “Deactivated”. Supervised inputs #1 is found at pins 4 and 5 of P5. Supervised input #2 is found at pins 6 and 7 of P5.6. Check the outputs. The outputs can be functionally tested by using the “momentary activate” feature in the C• CURE Monitoring application. When the outputs are momentarily activated, the signal will change state for a few seconds. An RM2L-4000-PI26 and RM2L-NH can be used in area/partition for signal acknowledgement. 7. Check the reader interface. The reader interface can only be tested by presenting a card with the appropriate technology to the reader. Reading a card will cause the display to show “Access Granted” or “Access Denied,” depending on the clearance of the card.CONFIGURATIONNOTESThe change to the default reader settings requires the use of special program cards that are available from the Software House Applications Department. Program cards are used to set a specific MIFARE read key and change other settings including card technologies to be read. To Program a Card Reader:1. Power cycle the reader. 2. Present the .INI card. The reader’s internal amber LED turns off within the read head compartment to indicate the reader is ready for the first program card.3. Present the first program card. The amber LED turns on solid.DRAFT
Configuration Notes154. If there are more program cards, repeat steps 2 and 3 until you have presented the necessary number of program cards.5. The reader is configured for the specified option(s) and is ready for use.Flash Upgrade For information about upgrading the firmware revision, refer to the PDF document entitled SWH Readers Download Firmware to Reader posted on the Software House Member Center. Amber LEDDRAFT
Compliance16ComplianceCanadian RadioEmissionsRequirementsThis digital apparatus does not exceed the Class A limits for radio noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications.Le present appareil numerique n’emet pas de bruits radioelectriques depassant les limites applicables aux appareils numeriques de la class A prescrites dans le Reglement sur le brouillage radiolelectrique edicte par le ministere des Communications du Canada.United States This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the device is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his/her own expense.CAUTION: Equipment changes or modifications without the approval of the party responsible for compliance could void the user's authority to operate the equipment and could create a hazardous condition.Specification Description UL294 5th Edition Access Control System USAUL1076 5th Edition Proprietary Alarm Units USAIEC60950-1 ITE – Safety InternationalEN60950 ITE – Safety EUEN55022-:2010 ITE – Radio Disturbance Characteristics EUEN55024 ITE – Immunity Characteristics EUEN50130-4:2011IEC 62599-2Alarm systems – Electromagnetic Compatibility EURoHS Restriction of hazardous substances EUFCC 47 CFR part 15 FCC – unintentional transmitter USA - Class AICES-003/NMB-003 Issue 5 Canada – unintentional transmitter Canada - Class AAS/NZS CISPR 22:2009 ITE – Radio Disturbance Characteristics Australia/New ZealandDRAFT
Important Safety Information17UL ListingThe following requirements must be adhered to:RM2L-4000-PI26 and RM2-4000-PI26 readers are Underwriters Laboratories Inc. (UL) Listed to Standard UL 294, Access Control System Units. RM2L-4000-PI26 reader is Underwriters Laboratories Inc. (UL1076). The RM2-4000-PI26 and the RM2L-4000-PI26 readers installed in accordance with the National Electric Code (ANSI/NFPA 70) or the Canadian Electric Code as required by local authorities.When purchased modularly, the reader module assembly is only for field replacement in the RM housing.Important Safety InformationC•CURE and Software House are trademarks of Tyco Security Products.The trademarks, logos, and service marks displayed on this document are registered in the United States [or other countries]. Any misuse of the trademarks is strictly prohibited and Tyco will aggressively enforce its intellectual property rights to the fullest extent of the law, including pursuit of criminal prosecution wherever necessary. All trademarks not owned by Tyco are the property of their respective owners, and are used with permission or allowed under applicable laws. Product offerings and specifications are subject to change without notice. Actual products may vary from photos. Not all products include all features. Availability varies by region; contact your regional sales manager.Document Number: 8200-1179-01Revision: A0Release Date: September 2015This manual is proprietary information of Software House. Unauthorized reproduction of any portion of this manual is prohibited. The material in this manual is for information purposes only. It is subject to change without notice. Software House assumes no responsibility for incorrect information this manual may contain. ©2015 Tyco Security ProductsAll Rights Reserved.LIFE SAFETY REQUIREMENT:A fail-safe mechanism override must be installed at each card reader exit to allow people to leave the secure area in case of electromechanical device failure.2002/96/EC (WEEE directive): Products marked with this symbol cannot be disposed of as unsorted municipal waste in the European Union. For proper recycling, return this product to your local supplier upon the purchase of equivalent new equipment, or dispose of it at designated collection points.DRAFT
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